The focus of this special issue of Molecular and Cellular Biochemistry is underlying mechanisms that regulate cardiac growth. The new information provided in this special issue can be utilized to design new treatment modalities that will reduce the incidence of cardiac failure which will improve quality of life in patients with chronic heart disease.

The focus of this special issue of Molecular and Cellular Biochemistry is underlying mechanisms that regulate cardiac growth. The new information provided in this special issue can be utilized to design new treatment modalities that will reduce the incidence of cardiac failure which will improve quality of life in patients with chronic heart disease.

According to the World Health Report (2000 http: / /www. who. int/whr), of the 55 million deaths worldwide in 1999, more than 16 million were secondary to car- diovascular complications. With the prospect of world population increasing from the current level of 6 billion to 9 billion by the middle of this century, the burden of cardiac disease is going to increase astronomically. Furthermore, scientists are being challenged not only to reduce mortality, but also to improve quality of life. Thus, more than ever, intellectuals from different disciplines including biology, sociology, informatics...

One of the most intriguing and compelling issues to impact contemporary biology to date is the concept that cell death is genetically regulated. Observations by Kerr and Wyllie, made more than 30 years ago on the basis of distinct morphological criteria, markedly distinguished apoptosis from classical cell death by necrosis. Apoptosis is a highly regulated, evolutionary conserved, genetic program of cell death essential for normal development and tissue homeostasis. The discovery of apoptosis as a regulated event and potentially amenable to therapeutic interventions has generated considerable...